Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?

Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?

The majority of cultivated bananas are intra and interspecific hybrids of the two main species Musa acuminata (denoted genome A) and Musa balbisiana (denoted genome B). The Banana streak virus (BSV) is responsible of the banana streak mosaic disease and causes severe damage on the Musa acuminata hybrids, which are extremely susceptible. The virus is mealybugs- vector transmitted from plant to plant. Curiously, BSV also exists as endogenous sequences named (eBSV) within all B genomes and can give rise active viruses leading to a systemic infection in banana plants. The banana plantain is a natural triploid interspecific hybrid AAB and harbors viral sequences for two BSV species within its B genome. It spontaneously develops BSV infections following abiotic stresses by releasing active viral genome from eBSVs. However, no epidemic has been reported so far, whereas several plantains regularly show infections in the fields. We suspected that the banana plantain regulates such endogenous viral infections by a gene silencing-based plant defense mechanism resulting from a co-evolution process. Our project aims understanding how this pathosystem works by following after an endogenous infection the kinetic of the virus distribution in the plant via molecular (IC-PCR, qPCR) and histologic (serological detection) markers as well as the small viral RNA profiles involved in gene silencing (TGS, PTGS) via Northern blots, NGS and LNA probes.

Saved in:
Bibliographic Details
Main Authors: Ricciuti, Emeline, Massé, Delphine, Hoestachy, Bruno, Iskra Caruana, Marie-Line
Format: conference_item biblioteca
Language:eng
Published: s.n.
Online Access:http://agritrop.cirad.fr/588896/
http://agritrop.cirad.fr/588896/1/ID588896.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cirad-fr-588896
record_format koha
spelling dig-cirad-fr-5888962020-04-20T12:33:54Z http://agritrop.cirad.fr/588896/ http://agritrop.cirad.fr/588896/ Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work? Ricciuti Emeline, Massé Delphine, Hoestachy Bruno, Iskra Caruana Marie-Line. 2018. . Bordeaux : s.n., Résumé, 1 p. COST iPLANTA CA15223, WG1 Meeting "Comparing siRNA and miRNA technology and role for improving perennial plants", Bordeaux, France, 17 Juillet 2018/18 Juillet 2018. Researchers Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work? Ricciuti, Emeline Massé, Delphine Hoestachy, Bruno Iskra Caruana, Marie-Line eng 2018 s.n. The majority of cultivated bananas are intra and interspecific hybrids of the two main species Musa acuminata (denoted genome A) and Musa balbisiana (denoted genome B). The Banana streak virus (BSV) is responsible of the banana streak mosaic disease and causes severe damage on the Musa acuminata hybrids, which are extremely susceptible. The virus is mealybugs- vector transmitted from plant to plant. Curiously, BSV also exists as endogenous sequences named (eBSV) within all B genomes and can give rise active viruses leading to a systemic infection in banana plants. The banana plantain is a natural triploid interspecific hybrid AAB and harbors viral sequences for two BSV species within its B genome. It spontaneously develops BSV infections following abiotic stresses by releasing active viral genome from eBSVs. However, no epidemic has been reported so far, whereas several plantains regularly show infections in the fields. We suspected that the banana plantain regulates such endogenous viral infections by a gene silencing-based plant defense mechanism resulting from a co-evolution process. Our project aims understanding how this pathosystem works by following after an endogenous infection the kinetic of the virus distribution in the plant via molecular (IC-PCR, qPCR) and histologic (serological detection) markers as well as the small viral RNA profiles involved in gene silencing (TGS, PTGS) via Northern blots, NGS and LNA probes. conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/588896/1/ID588896.pdf text Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html
institution CIRAD FR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cirad-fr
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CIRAD Francia
language eng
description The majority of cultivated bananas are intra and interspecific hybrids of the two main species Musa acuminata (denoted genome A) and Musa balbisiana (denoted genome B). The Banana streak virus (BSV) is responsible of the banana streak mosaic disease and causes severe damage on the Musa acuminata hybrids, which are extremely susceptible. The virus is mealybugs- vector transmitted from plant to plant. Curiously, BSV also exists as endogenous sequences named (eBSV) within all B genomes and can give rise active viruses leading to a systemic infection in banana plants. The banana plantain is a natural triploid interspecific hybrid AAB and harbors viral sequences for two BSV species within its B genome. It spontaneously develops BSV infections following abiotic stresses by releasing active viral genome from eBSVs. However, no epidemic has been reported so far, whereas several plantains regularly show infections in the fields. We suspected that the banana plantain regulates such endogenous viral infections by a gene silencing-based plant defense mechanism resulting from a co-evolution process. Our project aims understanding how this pathosystem works by following after an endogenous infection the kinetic of the virus distribution in the plant via molecular (IC-PCR, qPCR) and histologic (serological detection) markers as well as the small viral RNA profiles involved in gene silencing (TGS, PTGS) via Northern blots, NGS and LNA probes.
format conference_item
author Ricciuti, Emeline
Massé, Delphine
Hoestachy, Bruno
Iskra Caruana, Marie-Line
spellingShingle Ricciuti, Emeline
Massé, Delphine
Hoestachy, Bruno
Iskra Caruana, Marie-Line
Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
author_facet Ricciuti, Emeline
Massé, Delphine
Hoestachy, Bruno
Iskra Caruana, Marie-Line
author_sort Ricciuti, Emeline
title Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
title_short Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
title_full Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
title_fullStr Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
title_full_unstemmed Integrated sequences of Banana streak virus (BSV) in banana plantain: how does gene silencing-based plant defense system work?
title_sort integrated sequences of banana streak virus (bsv) in banana plantain: how does gene silencing-based plant defense system work?
publisher s.n.
url http://agritrop.cirad.fr/588896/
http://agritrop.cirad.fr/588896/1/ID588896.pdf
work_keys_str_mv AT ricciutiemeline integratedsequencesofbananastreakvirusbsvinbananaplantainhowdoesgenesilencingbasedplantdefensesystemwork
AT massedelphine integratedsequencesofbananastreakvirusbsvinbananaplantainhowdoesgenesilencingbasedplantdefensesystemwork
AT hoestachybruno integratedsequencesofbananastreakvirusbsvinbananaplantainhowdoesgenesilencingbasedplantdefensesystemwork
AT iskracaruanamarieline integratedsequencesofbananastreakvirusbsvinbananaplantainhowdoesgenesilencingbasedplantdefensesystemwork
_version_ 1758025842643959808

Similar Items